Dissecting tip for surgical stapler

ABSTRACT

The present disclosure relates to a dissecting tip for use in a surgical stapler or instrument.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. patent applicationSer. No. 14/637,866, filed Mar. 4, 2015, which is a continuation of U.S.patent application Ser. No. 14/269,346, filed May 5, 2014, which is acontinuation of U.S. patent application Ser. No. 10/835,543, filed Apr.29, 2004, now U.S. Pat. No. 8,714,429, which claims benefit and priorityto U.S. Provisional Patent Application Ser. No. 60/466,378, filed Apr.29, 2003, and the entire contents of all of which are herebyincorporated by reference herein.

This application relates to a dissecting tip for a surgical staplingdevice.

SUMMARY

In accordance with the present disclosure, a dissecting tip is providedfor use with a surgical stapling device and, especially, a linearsurgical stapling device, including an end effector having an anvilassembly and a cartridge assembly. The dissecting tip is supported onthe end effector, and may be supported on the distal end of the anvilassembly. The dissecting tip may instead or also be supported on thedistal end of the cartridge assembly. The dissecting tip may bepositioned to extend distally from the anvil assembly and includes abody having an outer surface, an inner surface and a distal tip. Thebody may assume a variety of configurations. For example, the body mayinclude inner and/or outer surfaces which are curved along thelongitudinal and/or transverse axis of the anvil assembly and extenddownwardly towards the cartridge assembly. In another embodiment, theinner and/or outer surfaces are substantially flat. In yet anotherembodiment, the inner and/or outer surfaces include a pair of flatsections interconnected by a curved transition section. In yet anotherembodiment, the body may include a distal portion having a distal tiphaving circular cross-section. The width of the dissecting tip maydecrease from the proximal end of the dissecting tip to the distal endof the dissecting tip. The distal tip of the dissecting tip may also berounded and/or blunt to prevent snagging, pulling and/or cutting oftissue.

The dissecting tip functions to dissect or separate target tissue andcertain tissue. As discussed above, “certain tissue” includes adherent,connective, joined or other tissue. This may be accomplished by passingor pressing the outer surface of dissecting tip against the targettissue and pushing the distal tip of the dissecting tip behind thecertain tissue such that the certain tissue is positioned adjacent theinner surface of the dissecting tip. The dissecting tip may be locatedand dimensioned to permit access through a trocar cannula assembly whichis sized to receive a surgical stapling instrument without a dissectingtip.

BRIEF DESCRIPTION OF THE DRAWINGS

Various embodiments of the presently disclosed dissecting tip aredescribed herein with reference to the drawings, wherein:

FIG. 1 is a side top perspective view of a surgical stapling deviceincluding one embodiment of the presently disclosed dissecting tipattached to the end effector thereof;

FIG. 2 is an enlarged view of the indicated area of detail shown in FIG.1;

FIG. 3 is a side view of the end effector with portions broken away andof the dissecting tip of the surgical stapling device shown in FIG. 1with the end effector in the open position adjacent target tissue andcertain tissue which is adhered to the target tissue;

FIG. 4 is a side view of the anvil assembly shown in FIG. 3 with thedissecting tip positioned partially between the certain tissue and thetarget tissue;

FIG. 4a is a side view of the anvil assembly and dissecting tip shown inFIG. 4 positioned fully between the certain tissue and the targettissue;

FIG. 4b is a side view of the dissecting tip and end effector shown inFIG. 3 with certain tissue positioned between an open anvil assembly andcartridge assembly;

FIG. 5 is a side view of the dissecting tip and end effector shown inFIG. 4b with certain tissue positioned between a clamped anvil assemblyand cartridge assembly;

FIG. 5a is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 1;

FIG. 5b is a bottom view of the dissecting tip and end effector shown inFIG. 5 a;

FIG. 5c is a front view of the dissecting tip and end effector shown inFIG. 5 b;

FIG. 5d is a side perspective view from the front of the presentlydisclosed dissecting tip dissector shown in FIG. 1;

FIG. 5e is a side view of the dissecting tip shown in FIG. 5 d;

FIG. 6 is an enlarged top side perspective view from the front of theend effector of a surgical stapling device including another embodimentof the presently disclosed dissecting tip;

FIG. 6a is a side view of the dissecting tip and end effector shown inFIG. 6;

FIG. 6b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 6;

FIG. 6c is a bottom view of the dissecting tip and end effector shown inFIG. 6 b;

FIG. 6d is a front view of the dissecting tip and end effector shown inFIG. 6 c;

FIG. 6e is a side top perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 6;

FIG. 6f is a side view of the dissecting tip shown in FIG. 6 e;

FIG. 7 is an enlarged side top perspective view from the front of theend effector of a surgical stapling device including another embodimentof the presently disclosed dissecting tip;

FIG. 7a is a side view of the dissecting tip and end effector shown inFIG. 7;

FIG. 7b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 7;

FIG. 7c is a bottom view of the dissecting tip and end effector shown inFIG. 7 b;

FIG. 7d is a front view of the dissecting tip and end effector shown inFIG. 7 c;

FIG. 7e is a side top perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 7;

FIG. 7f is a side view of the dissecting tip shown in FIG. 7 e;

FIG. 8 is an enlarged side perspective view from the front of the endeffector of a surgical stapling device including yet another embodimentof the presently disclosed dissecting tip;

FIG. 8a is a side view of the dissecting tip and end effector shown inFIG. 8;

FIG. 8b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 8;

FIG. 8c is a bottom view of the dissecting tip and end effector shown inFIG. 8 b;

FIG. 8d is a front view of the dissecting tip and end effector shown inFIG. 8 c;

FIG. 8e is a side perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 8;

FIG. 8f is a side perspective view from the rear of the dissecting tipshown in FIG. 8 e;

FIG. 8g is a side view of the dissecting tip shown in FIG. 8 e;

FIG. 9 is an enlarged top side perspective view from the front of theend effector of a surgical stapling device including another preferredembodiment of the presently disclosed dissecting tip;

FIG. 9a is a side view of the dissecting tip and end effector shown inFIG. 9;

FIG. 9b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 9;

FIG. 9c is a bottom view of the dissecting tip and end effector shown inFIG. 9 b;

FIG. 9d is a front view of the dissecting tip and end effector shown inFIG. 9 c;

FIG. 9e is a side perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 9;

FIG. 9f is a side view of the dissecting tip shown in FIG. 9 e;

FIG. 10 is an enlarged side perspective view from the front of the endeffector of a surgical stapling device including another embodiment ofthe presently disclosed dissecting tip;

FIG. 10a is a side view of the dissecting tip and end effector shown inFIG. 10;

FIG. 10b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 10;

FIG. 10c is a bottom view of the dissecting tip and end effector shownin FIG. 10 b;

FIG. 10d is a front view of the dissecting tip and end effector shown inFIG. 10 c;

FIG. 10e is a side perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 10;

FIG. 10f is a side view of the dissecting tip shown in FIG. 10 e;

FIG. 11 is an enlarged side perspective view from the front of the endeffector of a surgical stapling device including another embodiment ofthe presently disclosed dissecting tip;

FIG. 11a is a side view of the dissecting tip and end effector shown inFIG. 11;

FIG. 11b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 11;

FIG. 11c is a bottom view of the dissecting tip and end effector shownin FIG. 11 b;

FIG. 11d is a front view of the dissecting tip and end effector shown inFIG. 11 c;

FIG. 11e is a side perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 11;

FIG. 11f is a side view of the dissecting tip shown in FIG. 11 e;

FIG. 12 is an enlarged side top perspective view from the front of theend effector of a surgical stapling device including another embodimentof the presently disclosed dissecting tip;

FIG. 12a is a side view of the dissecting tip and end effector shown inFIG. 12;

FIG. 12b is a top view of the dissecting tip and end effector of thesurgical stapling device shown in FIG. 12;

FIG. 12c is a bottom view of the dissecting tip and end effector shownin FIG. 12 b;

FIG. 12d is a front view of the dissecting tip and end effector shown inFIG. 12 c;

FIG. 12e is a side perspective view from the front of the presentlydisclosed dissecting tip shown in FIG. 12;

FIG. 12f is a side view of the dissecting tip shown in FIG. 12 e;

FIG. 13 is a side perspective view from above a surgical stapling deviceincluding another embodiment of the presently disclosed dissecting tipattached to the end effector thereof with the anvil assembly andcartridge assembly of the end effector in the open position;

FIG. 13a is an enlarged side perspective view from above of the endeffector of the surgical stapling device shown in FIG. 1 with the anvilassembly and cartridge assembly in the clamped position;

FIG. 13b is an enlarged side perspective view from above of the endeffector of the surgical stapling device shown in FIG. 1 with the anvilassembly and cartridge assembly in the open position;

FIG. 13c is a top view of the end effector and dissecting tip shown inFIG. 13 a;

FIG. 13d is a bottom view of the end effector and dissecting tip shownin FIG. 13 a;

FIG. 13e is a front view of the end effector and dissecting tip shown inFIG. 13 a;

FIG. 13f is a side view of the end effector and dissecting tip shown inFIG. 13 a;

FIG. 14a is an enlarged side perspective view from above of anotherembodiment of the presently disclosed dissecting tip attached to an endeffector with the anvil assembly and cartridge assembly of the endeffector in the clamped position;

FIG. 14b is an enlarged side perspective view from above of anotherembodiment of the presently disclosed dissecting tip attached to an endeffector with the anvil assembly and cartridge assembly of the endeffector in the open position;

FIG. 14c is a top view of the end effector and dissecting tip shown inFIG. 14 a;

FIG. 14d is a bottom view of the end effector and dissecting tip shownin FIG. 14 a;

FIG. 14e is a front view of the end effector and dissecting tip shown inFIG. 14 a;

FIG. 14f is a side view of the end effector and dissecting tip shown inFIG. 14 a;

FIG. 15 is a side perspective view from above of another embodiment ofthe presently disclosed dissecting tip attached to an end effector withthe anvil assembly and cartridge assembly of the end effector in theopen position;

FIG. 15a is a side view of the end effector and dissecting tip shown inFIG. 15;

FIG. 16 is a side view of another embodiment of the presently discloseddissecting tip attached to an end effector of a surgical instrument withthe anvil assembly and the cartridge assembly of the end effector in anopen position;

FIG. 16a is a side view of the end effector and dissecting tip shown inFIG. 16 with the anvil assembly and cartridge assembly of the endeffector in the clamped position;

FIG. 16b is a top view of the end effector and dissecting tip shown inFIG. 16 a;

FIG. 16c is a bottom view of the end effector and dissecting tip shownin FIG. 16 a;

FIG. 16d is a front view of the end effector and dissecting tip shown inFIG. 16 a;

FIG. 16e is a side perspective view from above of the dissecting tipshown in FIG. 16 a;

FIG. 17 is a side view of another embodiment of the presently discloseddissecting tip attached to an end effector of a surgical instrument withthe anvil assembly and the cartridge assembly of the end effector in anopen position;

FIG. 17a is a side view of the end effector and dissecting tip shown inFIG. 17 with the anvil assembly and cartridge assembly of the endeffector in the clamped position;

FIG. 17b is a top view of the end effector and dissecting tip shown inFIG. 17 a;

FIG. 17c is a bottom view of the end effector and dissecting tip shownin FIG. 17 a;

FIG. 17d is a front view of the end effector and dissecting tip shown inFIG. 17a ; and

FIG. 17e is a side perspective view from above of the dissecting tipshown in FIG. 17 a.

DETAILED DESCRIPTION OF EMBODIMENTS

Embodiments of the presently disclosed surgical stapling device withdissecting tip will now be described in detail with reference to thedrawings wherein like reference numerals designate identical orcorresponding elements in each of the several views.

In the description that follows, the term “proximal”, as is traditional,will refer to the end of the stapling device closest the operator andthe term “distal” will refer to the end of the stapling device furthestfrom the operator.

FIG. 1 illustrates a linear surgical stapling device shown generally as10 including an end effector 12 having one embodiment of the presentlydisclosed dissecting tip, here generally designated 14, supportedthereon. Stapling device 10 also includes a handle assembly 16 and anendoscopic portion 18. End effector 12 forms part of a disposableloading unit or single use loading unit (SULU) 20. With the exception ofdissecting tip 14, the remaining components of surgical stapling device10 are substantially as known in the art described in U.S. Pat. No.5,865,361 (“'361 patent”), U.S. Pat. Nos. 6,079,606, 6,241,139,6,330,965 and 6,669,073. It is contemplated that the presently disclosedembodiments of the dissecting tip may be used in association with otherknown linear stapling devices of both endoscopic and open construction.These devices include articulating and non-articulating devices as wellas reusable and non-reusable devices. Examples of such devices aredisclosed in U.S. Pat. Nos. 6,202,914, 6,250,532, 6,109,500, 6,032,849,5,584,425, 5,540,375, 5,554,169, 5,507,426, 5,482,197. In light of thecomments above, only the embodiments of the dissecting tips disclosedherein will be discussed in detail in this application.

FIGS. 1-5 c illustrate one embodiment of the presently discloseddissecting tip in combination with a surgical stapling device 10. Asdiscussed above, surgical stapling device 10 includes a handle assembly16, an elongated body or endoscopic portion 18, and a SULU 20. Briefly,handle assembly 16 includes a stationary grip member 22, a pivotabletrigger 24, an articulation lever 26, a rotation knob 27 and returnknobs 28. SULU 20 is adapted to be releasably attached to elongated bodyportion 18 and includes a proximal body portion 32 and end effector 12.End effector 12 is pivotally attached to proximal body portion 32 tofacilitate articulation of end effector 12 in relation to proximal bodyportion 32.

End effector 12 includes an anvil assembly 34 and a cartridge assembly36 which houses a plurality of linear rows of staples. Anvil assembly 34and cartridge assembly 36 are movable, here, pivotal in relation to eachother between an open position and a clamped or approximated position.Pivotable trigger 24 is actuable through an actuation stroke or strokesto move anvil assembly 34 in relation to cartridge assembly 36 betweenthe open position and the clamped position and to eject staples fromcartridge assembly 36. The operation of each of these components isdescribed in greater detail in the '361 patent and will not be discussedin further detail herein.

Dissecting tip 14 is secured to a distal end of the end effector 12.Alternately, dissecting tip may be integrally formed with end effector12 or end effector 12 and dissecting tip 14 may be of monolithicconstruction. In one preferred embodiment, dissecting tip 14 is securedto a distal surface of anvil assembly 34 which is contiguous with atissue contact surface 34 a of anvil assembly 34. Dissecting tip 14 maybe formed from a surgical grade metal or plastic and attached to anvilassembly 34 using any known suitable fastening technique, e.g.,adhesives, welding, soldering, brazing, pins, etc. Alternately, otherknown surgically approved materials may be used to construct dissectingtip 14. In this embodiment, dissecting tip 14 includes a curved innersurface 14 a and a curved outer surface 14 b and a tip 14 c. In oneembodiment, curved inner surface 14 a and curved outer surface 14 b aresmooth. Smooth surfaces prevent dissecting tip 14 from snagging, pullingand/or cutting tissue. In one embodiment, tip 14 c is thin and blunt.The width of dissecting tip 14 decreases from its proximal end to itsdistal end and, in one embodiment, the width of dissecting tip 14decreases substantially continuously from its proximal end to its distalend culminating at tip 14 c. The width of dissecting tip 14 at itsproximal end (i.e. its greatest width) is smaller than the width ofcartridge assembly 36. In one embodiment, tip 14 c is generallycircular. Generally circular tip 14 c has a diameter of from about 3 toabout 6 mm. In one embodiment, tip 14 c has a diameter of from about 3to about 4 mm. In an alternative embodiment, tip 14 c has a diameter offrom about 5 to about 6 mm. Curved inner surface 14 a is formed by anysuitable radius, for example a one inch radius. Curved inner surface maybe formed by a plurality of curved radii. In one embodiment, curvedinner surface 14 a of dissecting tip 14 extends downwardly towardscartridge assembly 36 from the horizontal plane of anvil assembly 34. Inone embodiment, curved inner surface 14 a of dissecting tip 14 extendsdownwardly at an angle of from about 30 to about 90 degrees from thehorizontal surface of anvil assembly 34. In alternate embodiments,curved inner surface extends downwardly at an angle of from about 50 toabout 90 degrees, from about 60 to about 80 degrees and from about 80 toabout 90 degrees. In one embodiment, the distance from tip 14 c to thehorizontal plane of anvil assembly 34 is from about 10 to about 30 mm.In alternative embodiments, the distance from tip 14 c to the horizontalplane of anvil assembly 34 is about 10 mm and, alternatively, is fromabout 25 to about 30 mm. Inner surface 14 a of dissecting tip 14 extendsdownwardly toward cartridge assembly 36 to a location beyond the distalend of cartridge assembly 36. By extending dissecting tip 14 beyondcartridge assembly 36, access to adherent tissue is improved andvisualization of dissecting tip 14 to confirm proper position and thatdissection of the adherent tissue is completed is permitted. In oneembodiment, there are substantially smooth bends or transitions fromdissecting tip 14 to the portion(s) of the anvil assembly 34 from whichdissecting tip 14 is secured or from which it extends. When anvilassembly 34 and cartridge assembly 36 are in the clamped or approximatedposition, dissecting tip 14 is spaced from a distal angled tissue guidesurface 36 a of cartridge assembly 36. In one embodiment, the spacebetween dissecting tip 14 and distal angled surface guide 36 a is atleast the same as or greater than (in one embodiment two times greater)than the gap between the tissue contacting surfaces of the anvilassembly 34 and the cartridge assembly 36 when they are approximated.However, there may be instances when it is desired to have less spacebetween the dissecting tip and tissue guide surface 36 a of cartridgeassembly 36.

Referring now to FIGS. 3-5, when surgical stapling device 10 is used todissect certain tissue 40, e.g., blood or airway vessels, from targettissue 42, e.g., stomach, lung, etc., curved outer surface 14 b ofdissecting tip 14 can be pressed or passed against target tissue 42 andslid behind certain tissue 40, e.g., adherent, tissue to separate and/ordissect tissue 40 from, for example, adherence with target tissue 42.Positioning of dissecting tip 14 behind certain tissue 40 may beaccomplished with anvil assembly 34 and cartridge assembly 36 in theopen position. Alternately, the anvil and cartridge assemblies can bemoved to the clamped position to provide extra stability to the endeffector during dissection of tissue. Thereafter, either or both ofcertain tissue 40 and target tissue 42 can be independently joined andcut by clamping and actuating surgical stapling device 10.

It is noted that although not described in detail, end effector 12 maybe adapted to access the surgical site through a trocar cannula assemblyas is known in the art. To accomplish this, anvil assembly 34 andcartridge assembly 36 are maintained in a clamped position as elongatedbody portion 18 and end effector 12 are inserted through the cannula(not shown). As illustrated, dissecting tip 14 does not extend below aplane defined by a bottom surface 36 b of cartridge assembly 36, nordoes dissecting tip 14 extend outwardly beyond the sidewalls ofcartridge assembly 36. The dissecting tip can be above, e.g., slightlyabove the plane. As such, surgical stapling device 10 includingdissecting tip 14 may be used with a trocar cannula assembly sized toreceive a surgical stapling device not having a dissecting tip 14.

FIGS. 6-6 e illustrate another embodiment of the presently discloseddissecting tip shown generally as 114. Dissecting tip 114 is secured tothe distal end of end effector 12. Alternately, dissecting tip 114 maybe monolithically or integrally formed with end effector 12. Asdiscussed above, end effector 12 includes anvil assembly 34 andcartridge assembly 36. Dissecting tip 114 is secured to a distal surfaceor portion of anvil assembly 34 in the manner described above withrespect to dissecting tip 14. Dissecting tip 114 is also constructedfrom a surgical grade metal Dissecting tip 114 is also constructed froma surgical grade metal or plastic. The use of other known surgicallyapproved materials to construct dissecting tip 114 is envisioned.Dissecting tip 114 includes substantially flat inner and outer surfaces,114 a and 114 b, respectively and tip 114 c. In one embodiment,substantially flat inner surface 114 a and substantially flat outersurface 114 b are smooth. Smooth surfaces prevent dissecting tip 114from snagging, pulling and/or cutting tissue. In one embodiment, tip 114c is thin and blunt. The width of dissecting tip 114 decreases from itsproximal end to its distal end and, in one embodiment, the width ofdissecting tip 114 decreases substantially continuously from itsproximal end to its distal end culminating at tip 114 c. The width ofdissecting tip 114 at its proximal end (i.e. its greatest width) issmaller than the width of cartridge assembly 36. In one embodiment, tip114 c is generally circular. Generally circular tip 114 c has a diameterof from about 3 to about 6 mm. In one embodiment, tip 114 c has adiameter of from about 3 to about 4 mm. In an alternative embodiment,tip 114 c has a diameter of from about 5 to about 6 mm. In oneembodiment, inner surface 114 a of dissecting tip 114 extends downwardlytowards cartridge assembly 36 from the horizontal plane of anvilassembly 34. In one embodiment, inner surface 114 a of dissecting tip114 extends downwardly at an angle of from about 5 to about 90 degreesfrom the horizontal surface of anvil assembly 34. In alternateembodiments, inner surface 114 a extends downwardly at an angle of fromabout 30 to about 90, from about 50 to about 90 degrees, from about 60to about 80 degrees and from about 80 to about 90 degrees. In oneembodiment, the distance from tip 114 c to the horizontal plane of anvilassembly 34 is from about 10 to about 30 mm. In alternative embodiments,the distance from tip 114 c to the horizontal plane of anvil assembly 34is about 10 mm and, alternatively, is from about 25 to about 30 mm.Inner surface 114 a of dissecting tip 114 extends downwardly towardcartridge assembly 36 to a location beyond the distal end of cartridgeassembly 36. In one embodiment, tip 114 c does not extend below a planedefined by a bottom surface 36 b of cartridge assembly 36. As such, asurgical stapling device including dissecting tip 114 can be insertedthrough a trocar cannula assembly sized to receive the stapling device.In an alternative embodiment, tip 114 c extends below the plane definedby the bottom surface 36 b of cartridge assembly 36. When anvil assembly34 and cartridge assembly 36 are in the clamped or approximatedposition, inner surface 114 a of dissecting tip 114 is spaced from adistal angled tissue guide surface 36 a of cartridge assembly 36 and, inone embodiment, it is spaced substantially parallel from tissue guidesurface 36 a. In one embodiment, the space between dissecting tip 114and distal angled surface guide 36 a is at least the same as or greaterthan (in one embodiment two times greater) than the gap between thetissue contacting surfaces of the anvil assembly 34 and the cartridgeassembly 36 when they are approximated. However, there may be instanceswhen it is desired to have less space between the dissecting tip andtissue guide surface 36 a of cartridge assembly 36.

The use of dissecting tip 114 is substantially identical to that ofdissecting tip 14 and will not be discussed in further detail herein.

FIGS. 7-7 e illustrate yet another embodiment of the presently discloseddissecting tip shown generally as 214. Dissecting tip 214 is secured toanvil assembly 34 of end effector 12 in the manner described above withrespect to dissecting tip 14. Dissecting tip 214 is also constructedfrom a surgical grade metal or plastic. Alternatively, the use of otherknown materials of construction is envisioned.

Dissecting tip 214 includes inner and outer surfaces 214 a and 214 b anda blunt tip 214 c. Inner and outer surfaces 214 a and 214 b each have asubstantially flat proximal portion 250 a and 250 b and a substantiallyflat distal portion 252 a and 252 b positioned at an angle to proximalportion 250. In one embodiment, proximal portion 250 and distal portion252, along inner surface 214 a, define an angle θ (FIG. 7a ) of betweenabout 90° and about 170°. In one embodiment, angle θ is about 30°. Thetransition between proximal portion 250 a and distal portion 252 a issmooth and rounded to prevent snagging, pulling and/or cutting oftissue. The outer surface of tip 214 can have other shapes, e.g.,rounded as in FIGS. 1-5 e. As discussed above with respect to dissectingtips 14 and 114, the width of dissecting tip 214 decreases from itsproximal end to its distal end and at its greatest width is less thanthe width of cartridge assembly 36. The distal end of distal portion 252a includes a blunt tip 214 c which in this embodiment does not extendbeyond a plane defined by a bottom surface 36 b of cartridge assembly36. The use of dissecting tip 214 is substantially identical to that ofdissecting tip 14 and will not be discussed in further detail herein.

FIGS. 8-8 e illustrate another embodiment of the presently discloseddissecting tip shown generally as 314. Dissecting tip 314 includes aninner surface 314 a, a top surface 314 b and a front surface 314 c.Inner surface 314 a is angled and is substantially parallel to distalangled tissue guide surface 36 a of cartridge assembly 36. Top surface314 b is curved or concave along an axis transverse to a longitudinalaxis of anvil assembly 34. Front surface 314 c is angled downwardlytowards cartridge assembly 36 and defines an angle θ (FIG. 8a ) ofbetween about 95° and 135° with respect to the longitudinal axis ofanvil assembly 34. In one embodiment, angle θ is about 106°. The widthof dissecting tip 314 decreases from a proximal end of dissecting tip314 to the distal end of dissecting tip 314. The width at the proximalend of dissecting tip 314 is approximately equal to the width ofcartridge assembly 36. As discussed above, the dimensions andpositioning of dissecting tip 314 on stapling device 10 permitpositioning of stapling device 10 through a trocar cannula assemblysized to allow passage stapling device 10 without dissecting tip 314.

Distal tip 314 d of dissecting tip 314 may be positioned proximally ofthe distal end of cartridge assembly 36. Alternately, distal tip 314 dmay be positioned adjacent to or distally of the distal end of cartridgeassembly 36.

Dissecting tip 314 includes a substantially hollow recess 314 e (FIG. 8f) which is configured to receive the distal end of anvil assembly 34.Dissecting tip 314 may be positioned over the distal end of anvilassembly 34 and secured thereto using any known fastening technique,e.g., adhesives, welding, friction fit, pins, screws, etc. Dissectingtip 314 may be formed from surgical grade metals or plastics althoughother known materials of construction are envisioned. Dissecting tip 314functions basically in the same manner as discussed above with respectto dissecting tip 14 and will not be discussed in further detail herein.

FIGS. 9-9 e illustrate yet another embodiment of the presently discloseddissecting tip shown generally as 414. Dissecting tip 414 is similar inshape to dissecting tip 314 but includes a peg extension 436 (FIG. 9e )to secure dissecting tip 414 to anvil assembly 34, rather than a hollowrecess as will be further discussed below. Dissecting tip 414 includesan inner surface 414 a, a top surface 414 b, and a front surface 414 c.Inner surface 414 a is substantially parallel to a tissue guide surface36 b on the distal end of cartridge assembly 36. Top surface 414 b isflat and is positioned to abut against a distal surface of anvilassembly 34 which is contiguous with an inner tissue engaging surface 34a of anvil assembly 34. Front surface 414 c is angled downwardly towardscartridge assembly 36 and in one embodiment defines an angle θ (FIG. 9a) of between about 95° and about 135°. In one embodiment, angle θ isabout 154°.

Peg extension 436 is a T-shaped member which extends upwardly from aproximal end of top surface 414 b of dissecting tip 414. The upperportion 452 of T-shaped member 436 extends transversely across anvilassembly 34 and is dimensioned to be received in a linear slot (notshown) formed in the distal end of anvil assembly 34. To attachdissecting tip 414 to anvil assembly 34, upper portion 452 of T-shapedmember 436 is positioned within the distal linear slots of anvilassembly 34 and dissecting tip 414 is rotated 90° to lock upper portion452 within the linear slot and lock dissecting tip to anvil assembly 34.Additional fastening techniques may be used to fixedly secure dissectingtip 414 to anvil assembly 34, e.g., adhesives, welding, etc.

FIGS. 10-10 e illustrate another embodiment of the presently discloseddissecting tip shown generally as 514. Dissecting tip 514 issubstantially similar to dissecting tip 314 in construction but differsin that a distal tip 514 d of dissecting tip 514 is narrower than andpositioned above, over or adjacent to the distal end of cartridgeassembly 36. Further, top surface 514 b and front surface 514 c togetherdefine an angle θ (FIG. 10a ) of between about 95° and about 135°. Inone embodiment, angle θ is about 115°. As discussed above with respectto dissecting tip 314, dissecting tip 514 defines a hollow recess (notshown) dimensioned and configured to receive the distal end of anvilassembly 34.

FIGS. 11-11 e illustrate yet another embodiment of the presentlydisclosed dissecting tip shown generally as 614. Dissecting tip 614 issubstantially similar to dissecting tip 514 with the exception thatdissecting tip 614 includes a pair of cutouts 614 c formed in oppositetapered sidewalls 614 a and 614 b thereof. The tapered sidewalls 614 aand 614 b and cutouts 614 c provide a smooth transition from dissectingtip 614 to anvil assembly 34 to prevent snagging and pulling of tissue.

FIG. 12-12 e illustrate another embodiment of the presently discloseddissecting tip shown generally as 714. Dissecting tip 714 is formedintegrally and/or monolithically with an anvil plate 34 a (FIG. 12e ) ofanvil assembly 34 and is therefore formed from a surgical grade metal.Dissecting tip 714 includes an inner surface 714 a, an outer surface 714b and a distal tip 714 c which may be rounded. Inner and outer surfaces714 a and 714 b are substantially flat and define an angle θ of betweenabout 105° and about 155° in relation to a longitudinal axis of anvilassembly 34. In one embodiment, θ is about 136° Dissecting tip 714extends downwardly towards cartridge assembly 36, at angle θ which inone embodiment is less than an angle B defined between tissue guidesurface 36 a formed on the distal end of cartridge assembly 36 and alongitudinal axis of cartridge assembly 36. Although the dissecting tipof this disclosure can be employed on any sized SULU or end effector,for some applications shorter end effectors may be preferred.

The junction, blend or transition of the proximal portion of the innersurface of dissecting tip 14 with the plane of tissue contacting surface34 of the anvil assembly may be positioned axially distal of thejunction, blend or transition of tissue guide surface 36 a and thetissue contacting surface of cartridge assembly 36. This provides spaceto allow tissue to be squeezed distally of the staple working portionsof the tissue contacting surfaces of anvil assembly 34 and cartridgeassembly 36 and helps maintain the desired tissue gap between thosesurfaces, during approximation and clamping. The configuration ofdissecting tip 714 of end effector 12 shown in FIG. 12a exemplifies thisjunctional relationship.

FIG. 13 illustrates a linear surgical stapling device known generally as800 including an end effector 812 having another embodiment of thepresently disclosed dissecting tip here designated 814, supportedthereon. Stapling device 800 is substantially similar to stapling device10 and includes a handle assembly 816 and an endoscopic portion 818. Endeffector 812 may form part of a disposable loading unit or single useloading unit (SULU) 820.

Referring to FIGS. 13a-13f , end effector 812 includes an anvil assembly834 and a cartridge assembly 836 movably positioned in relation to eachother between an open position (FIG. 13b ) and a clamped or approximatedposition (13 a). In one embodiment, anvil assembly 834 is pivotal inrelation to cartridge assembly 836. Trigger 824 is movable through anactuation stroke or strokes to move anvil assembly 834 and cartridgeassembly 836 between the open and closed positions as is well known inthe art.

Referring to FIGS. 13a-13f , dissecting tip 814 extends distally fromend effector 812. In this embodiment, dissecting tip 814 and anvilassembly 834 are of monolithic construction. Alternately, it isenvisioned that dissecting tip 814 may be formed separately from anvilassembly 834 and secured thereto using any known fastening technique,e.g., adhesives, welding, soldering, brazing, pins, interlockingstructure, etc. It is contemplated that dissecting tip 814 can besupported on another portion of end effector 812 such as cartridgeassembly 836. Dissecting tip 814 may be formed from a surgical grademetal or plastic. It is also contemplated, however, that other knownsurgically approved materials may be used to construct dissecting tip814.

Dissecting tip 814 includes a proximal portion 840 and a distal portion842. Proximal portion 840 extends distally from anvil assembly 834 andincludes a curved section 844. Curved section 844 defines a smoothtransition between anvil assembly 834 and distal portion 842 ofdissecting tip 814. The longitudinal axis of anvil assembly 834 and thelongitudinal axis of distal portion 842 of dissecting tip 814 intersectto define an angle θ (FIG. 13a ) of between about 5° and about 90°. Inthis embodiment angle θ is about 30°.

Distal portion 842 includes a semi-circular smooth distal face 814 c.Proximal portion 840 and distal portion 842, together, define a smoothsubstantially flat inner surface 814 a and a smooth substantially flatouter surface 814 b. As illustrated, the width of dissecting tip 814proximal of distal face 814 c is substantially constant along the lengthof dissecting tip 814 and is about equal to the width of cartridgeassembly 836. It is contemplated, however, that the width of dissectingtip 814 may vary along the length of dissecting tip, e.g., the width ofdissecting tip 814 may be decreased or increased along the length ofdissecting tip 814 from the proximal end of dissecting tip 814 to thedistal end of the dissecting tip 814 or at any point therebetween. Inthis embodiment, the width of dissecting tip 814 does not exceed thewidth of cartridge assembly 836.

As illustrated in FIGS. 13a and 13c-13f , when anvil assembly 834 andcartridge assembly 836 are in their clamped position, a gap 850 isdefined between a distal angled guide surface 836 a of cartridgeassembly 836 and inner surface 814 a of dissecting tip 814. In thisembodiment, gap 850 is substantially equal to or greater that gap 852defined between the anvil and cartridge assemblies. It is envisionedthat in some circumstances it may be desirable to reduce the height ofgap 850 to a height smaller than gap 852, e.g., when it is desirable toclamp or compress tissue between guide surface 836 a of cartridgeassembly 836 and inner surface 814 a of dissecting tip 814.

FIGS. 14a-14f illustrate another embodiment of the presently discloseddissecting tip shown generally as 914. Dissecting tip 914 extendsdistally from end effector 812. In one embodiment, dissecting tip 914 isformed monolithically with anvil assembly 834 of end effector 812.Alternately, it is envisioned that dissecting tip 914 may be formedseparately from anvil assembly 834 and secured thereto using any knownfastening technique as set forth above. It is also envisioned thatdissecting tip 914 can be supported by another portion of end effector812 such as cartridge assembly 836. Dissecting tip 914 may be formedfrom surgical grade metals or plastics having the requisite strengthrequirements or any other known material suitable for surgical use.

Dissecting tip 914 is substantially similar in shape to dissecting tip814 with the exception that angle θ is about 90°. More specifically,dissecting tip 914 includes a proximal portion 940 and a distal portion942. Proximal portion extends distally from anvil assembly 834 andincludes a curved section 944 which defines a smooth transition betweenanvil assembly 834 and distal portion 942 of dissecting tip 914. Thelongitudinal axis of anvil assembly 834 and the longitudinal axis ofdistal portion 942 of dissecting tip 914 define an angle θ of betweenabout 80° and about 90°.

Distal portion 942 is similar in shape to that of distal portion 842 ofdissecting tip 814 and will not be discussed in further detail herein.In one embodiment (See FIGS. 14a-14f ), distal portion 942 of dissectingtip 914 extends distally to about or adjacent the distal end 836 b ofcartridge assembly 836 of end effector 812. In another embodiment (SeeFIGS. 15 and 15 a), dissecting tip 914′ is positioned distally of thedistal end 836 b of cartridge assembly 836 of end effector 812. In thisembodiment, dissecting tip 914′ is positioned to dissect tissue when theanvil and cartridge assemblies are in their clamped position.

FIGS. 16-16 e illustrate another embodiment of the presently discloseddissecting tip shown generally as 1014. Dissecting tip 1014 is securedto the distal end of anvil assembly 1034 of end effector 1012 using anyknown suitable fastening technique, e.g., adhesives, welding, soldering,brazing, pins, etc. It is also envisioned that dissecting tip 1014 maybe secured to end effector 1012 at other locations such as to cartridgeassembly 1036. Alternately, dissecting tip 1014 may be formedmonolithically or integrally with a portion of end effector 1012.Dissecting tip 1014 may be constructed from a surgical grade metal orplastic, although it is contemplated that other surgically approvedmaterials may be used.

Dissecting tip 1014 includes a proximal portion 1040 and a distalportion 1042. Proximal and distal portions 1040 and 1042, respectively,are contiguous and define a curved inner surface 1014 a, a curved outersurface 1014 b and a distal tip 1014 c. Distal tip 1014 c is located onthe distal end of distal portion 1042. In one embodiment, surfaces 1014a and 1014 b are smooth to prevent dissecting tip 1014 from snagging,pulling and/or cutting tissue. In one embodiment, the width of distalportion 1042 of dissecting tip 1014 decreases substantially continuouslyfrom its proximal end to its distal end and culminates at distal tip1014 c which may be thin and blunt (See FIGS. 16d and 16e ). It is alsocontemplated, however, that the width of the distal portion and/orproximal portion of dissecting tip 1014 may remain constant along itslength or have a width which increases or decreases along any portion orall of its length. The width of dissecting tip 1014 at its greatestshould be less than the width of cartridge assembly 1036 to facilitateinsertion of end effector 1012 through a trocar assembly duringendoscopic procedures. Alternately, where dissecting tip 1014 isemployed on open surgical instruments, it may be desirable to increasethe width of dissector tip 1014 beyond that of cartridge assembly 1036.

In one embodiment, distal portion 1042 and tip 1014 c of dissecting tip1014 have substantially round cross-sections which may be substantiallycircular or oval. The diameter of the oval or circular cross-section maydecrease from the proximal end of distal portion 1042 towards distal tip1014 c. In one embodiment, the diameter of distal tip 1014 c is fromabout 2 mm to about 6 cm, in one embodiment from about 2 to about 4 mmor about 3 to about 4 mm. In another embodiment, distal tip 1014 c has adiameter of from about 4 mm to about 6 mm and in one embodiment fromabout to about 6 mm. It is also contemplated that proximal portion 1040may also have a round cross-section which may decrease in diameter alongits length.

Curved inner and/or outer surfaces 1014 a and 1014 b, respectively maybe formed having any suitable radius of curvature which may define anarc of between about 5° to about 90°. In one embodiment the arc definedby curved inner and outer surfaces 1014 a and 1014 b is between about50° and 90°. In another embodiment the arc is between about 60° andabout 80° and in another embodiment (FIG. 16) the arc is between about80° and about 90°. It is also contemplated that curved inner and/orouter surfaces 1014 a and 1014 b may be formed having a plurality ofdifferent radii of curvature.

The distance “X” (FIG. 16a ) between a horizontal plane “Y” defined bytissue contacting surface 1034 a of anvil assembly 1034 and distal tip1014 c may be between about 10 mm and about 30 mm. In one embodiment,the distance X is between about 25 mm and about 30 mm. It is noted thatdistance X may vary greatly depending on the type of instrumentdissecting tip 1014 is employed on, e.g., open or endoscopic, and on theparticular procedure the instrument is being employed to perform.Accordingly, a wide size range of dissecting tips is envisioned.

In one embodiment (FIGS. 17 and 17 a), distal tip 1014′ extends below aplane “Z” defined by the bottom surface of cartridge assembly 1036. Byextending dissecting tip 1014′ below the plane defined by cartridgeassembly 1036, access to adherent tissue may be improved andvisualization of dissecting tip 1014′ is permitted. Visualization ofdissecting tip 1014′ facilitates confirmation that the dissecting tip isproperly positioned and that dissection of adherent tissue is completed.This embodiment may be more suitable for use on instruments designed foropen surgical procedures since an enlarged trocar would be required tofacilitate passage of dissecting tip 1014′.

It will be understood that various modifications may be made to theembodiments disclosed herein. For example, the dissecting tip may besecured to other parts of the end effector including the cartridgeassembly. Further, each of the dissecting tips may be monolithically orintegrally formed with the end effector, e.g., anvil assembly orcartridge assembly. Moreover, the angles and/or curves of the dissectingtip surface(s) may be modified to better suit a particular surgicalprocedure. Therefore, the above description should not be construed aslimiting, but merely as exemplifications of preferred embodiments. Thoseskilled in the art will envision other modifications within the scopeand spirit of the claims appended hereto.

It is also envisioned that any of the dissecting tips described abovemay be incorporated into other surgical instruments which may requiresome tissue dissection prior to use. These instruments include surgicalclip appliers and other ligation devices.

What is claimed:
 1. A linear surgical stapling device, comprising: ahandle assembly; an elongate body with a distal end; an end effector atthe distal end of the elongate body, the end effector having an anvilassembly and a cartridge assembly, the cartridge assembly housing aplurality of linear rows of staples, the anvil assembly having adissecting tip at a distal end thereof, the cartridge assembly and theanvil assembly having an open position and an approximated position, thedissecting tip having an inner surface that extends downwardly towardthe cartridge assembly to a location beyond the rows of staples, thedissecting tip being arranged so that it does not extend below a planedefined by a bottom surface of the cartridge assembly and does notextend outwardly beyond sidewalls of the cartridge assembly, thedissecting tip having a generally tapered shape configured forseparating tissue.
 2. The stapling device of claim 1, further comprisinga knife that passes through the anvil assembly and cartridge assembly.3. The stapling device of claim 1, wherein the handle assembly includesan articulation lever.
 4. The stapling device of claim 3, wherein thehandle assembly includes a rotation knob.
 5. The stapling device ofclaim 1, wherein the dissecting tip has a smooth, curved inner surface.6. The stapling device of claim 1, wherein the end effector forms partof a disposable loading unit or single use loading unit.
 7. The staplingdevice of claim 1, wherein the cartridge assembly has an angled distalsurface.
 8. The stapling device of claim 1, wherein the dissecting tipdefines an angle with the anvil assembly of between about 95 and about135 degrees.